基本信息科学研究教学研究论文著作
基本信息
工学博士，哈尔滨工业大学材料科学系助研/硕士生导师。

电话：**

Email: mingfang.qian@hit.edu.cn

ORCID: https://orcid.org/0000-0002-2928-1008.com

教育经历
2005.09-2009.07 哈尔滨工业大学材料学院 学士

2009.09-2011.07 哈尔滨工业大学材料学院 硕士

2011.09-2016.04 哈尔滨工业大学材料学院 博士

2013.10-2014.11 英国布里斯托大学航空工程系 访问

工作经历
2016.07-至今 哈尔滨工业大学材料学院材料科学系 助理研究员

研究领域
1、铁磁形状记忆合金小尺寸材料功能特性：磁感生应变、磁热效应、弹热效应等；

2、非连续增强铝基复合材料

科研团队
轻质高强金属基复合材料课题组

课题组负责人：耿林 教授

成员：张杰 教授

张学习 教授

黄陆军 教授

郑镇洙 教授级高工

李爱滨 副教授

王桂松 副教授

范国华 副教授

崔喜平 高级工程师

钱明芳 助理研究员

焦 阳 工程师


课题小组
铁磁功能材料小组

小组负责人：张学习 教授

成员：钱明芳 助研

科研项目
时间

项目名称

批准单位

本人承担的研究内容

经费金额
2018年1月～2019年4月

镍锰镓单晶粉末滞后的尺寸相关性及磁热性能优化设计

黑龙江省博士后管理办公室

项目负责人

5.0万元
2018年1月～2020年12月

镍锰镓多晶纤维磁致冷能力优化设计

国家自然科学基金委员会

项目负责人

25.0万元
2017年10月～2019年9月

镍锰镓铁磁形状记忆合金纤维磁热性能研究

哈尔滨工业大学

项目负责人

10.0万元
2017年6月～2021年5月

非连续增强金属基复合材料高通量制备研发和示范应用

中国国家科技部

项目骨干

1553.0万元
2017年4月～2019年3月

镍锰铟钴单晶粉末磁制冷能力优化设计

中国博士后科学基金会

项目负责人

8.0万元
2016年1月～2018年12月

表取采样机械臂臂杆组件研制

中国航天科技集团五院总体部

第二参与人

430.0万元
2018年6月-2021年5月

镍锰铟钴多晶纤维磁热性能优化设计

黑龙江省科技厅

项目负责人

6.0万元


讲授课程
拟讲授课程《铁磁功能材料》

招生信息
选题背景及意义：

磁致冷是利用磁制冷材料电子自旋系统磁熵变随外界磁场变化的原理达到吸热和放热目的。与传统的气体压缩式制冷相比（如氟利昂制冷），循环效率高，可以达到卡诺循环的 60%，而依靠气体压缩的制冷循环的极限值仅为 40%。磁致冷材料不像传统氟制冷剂会破环臭氧层或引起温室效应而危害生态环境，并且由于磁工质是固体，其熵密度远大于气体工质，因此制冷装置易于小型化，再者，采用磁致冷工质没有压缩机，大幅度降低了震动和噪音。综上所述，磁制冷技术因其熵密高、体积小、结构简单、噪音小、效率高以及绿色环保等特点具有深远的研究意义。

招生信息：

本科生：2位/年；

硕士研究生：1位/年

外语：英语；

专业基础课：材料物理性能、材料科学基础、固态相变

有意者可以联系mingfang.qian@hit.edu.cn, 欢迎提前下实验室

专利

论文专著
Journal Articles (sorted by publication year), to be continued:

2019

B. Yuan, X.J. Zhu, X.X. Zhang, M.F. Qian. Elastocaloric effect with small hysteresis in bamboo-grained Cu–Al–Mn microwires. Jourmal of Materials Science, 2019, In press.

M.F. Qian, X.X. Zhang, J.C. Li, X. Gao, L. Geng. Microstructure and mechanical properties of ABOw and nickel-coated MWCNTs reinforced 2024Al hybrid composite fabricated by squeeze casting. Materials Chemistry and Physics, 2019, 226: 344-349.

X. Gao, X.X. Zhang, M.F. Qian, L. Geng. Effect of reinforcement shape on fracture behaviour of SiC/Al composites with network architecture. Composite Structures, 2019, 215: 411-420.

H.H. Zhang, X.X. Zhang, M.F. Qian, B. Yuan, L. Geng. Effect of partial metamagnetic and magnetic transition coupling on the magnetocaloric effect of Ni-Mn-Sn-Fe alloy. Intermetallics, 2019, 105: 124-129.

A.B. Li, G.S. Wang, X.X. Zhang, Y.Q. Li, X. Gao, H. Sun, M.F. Qian, X.P. Cui, L. Geng, G.H. Fan. Enhanced combination of strength and ductility in ultrafine-grained aluminum composites reinforced with high content intragranular nanoparticles. Materials Science and Engineering: A, 2019, 745: 10-19.

X.J. Zhu, X.X. Zhang, M.F. Qian, M. Imran. Elastocaloric effects related to B2?R and B2?B19’ martensite transformation in nanocrystalline Ni50.5Ti49.5 microwires. Journal of Alloys and Compounds, 2019, In press.

2018

M.F. Qian, X.X. Zhang, L.S. Wei, P.G. Martin, J.F. Sun, L. Geng, T.B. Scott, H. X. Peng. Tunable magnetocaloric effect in Ni-Mn-Ga microwires. Scientific Reports, 2018, 8:16574.

M.F. Qian, X.X. Zhang, Z.G. Jia, X.H. Wan, L. Geng. Enhanced magnetic refrigeration capacity in Ni-Mn-Ga micro-particles. Materials & Design, 2018, 148: 115-123.

M.F. Qian, X.X. Zhang, Z.G. Jia, X.H. Wan, L. Geng. Dataset on enhanced magnetic refrigeration capacity in Ni-Mn-Ga micro-particles. Data in Brief, 2018, 19: 444-448.

X.X. Zhang, M.F. Qian, X.J. Zhu, C. Shang, L.Geng. Elastocaloric effects in ultra-fine grained NiTi microwires processed by cold-drawing. APL Materials, 2018, 6: 36102.

L.S. Wei, X.X. Zhang, M.F. Qian, P. Martin, L. Geng, T. Scott, H.X. Peng. Compressive deformation of polycrystalline Ni-Mn-Ga alloys near chemical ordering transition temperature. Materials and Design, 2018, 142: 329-339.

X.X. Zhang, H.H. Zhang, M.F. Qian, L. Geng. Enhanced magnetocaloric effect in Ni-Mn-Sn-Co alloys with two successive magnetostructural transformations. Scientific Reports, 2018, 8: 8235.

R.C. Zhang, X.X. Zhang, M.F. Qian, L. Geng. Effect of Co-Doping on the microstructure, martensitic transformation behavior, and magnetocaloric effect of Ni-Mn-Sb-Si ferromagnetic shape memory alloys. Metallurgical and Materials Transactions A, 2018, in press.

R.C. Zhang, X.X. Zhang, M.F. Qian, J.F. Sun, L. Geng. Effect of Si doping on microstructure and martensite transformation in Ni-Mn-Sb ferromagnetic shape memory alloys. Intermetallics, 2018, 97: 1-7.

X.J. Zhu, X.X. Zhang, M.F. Qian. Reversible elastocaloric effects with small hysteresis in nanocrystalline Ni-Ti microwires. AIP Advances, 2018, 12(8): 125002.

袁勃，曾磊，钱明芳，张学习，耿林. 形状记忆合金弹热效应研究进展. 材料导报，2018，32(9): 3033-3039.

2017

X.X. Zhang, M.F. Qian, G.W. Wang, P.F. Xu, L. Geng, J.F. Sun. High damping capacity of Ni–Mn–Ga–Cu microwires prepared by melt-extraction technique. Rare Metals, 2017, 1: 1-6.

H.H. Zhang, M.F. Qian, X.X. Zhang, S.D. Jiang, L.S. Wei, D.W. Xing, J.F. Sun, L. Geng. Magnetocaloric effect of Ni-Fe-Mn-Sn microwires prepared by melt-extraction technique. Materials and Design, 2017, 114: 1-9.

R.C. Zhang, M.F. Qian, X.X. Zhang, F.X. Qin, L.S. Wei, D.W. Xin, X.P. Cui, J.F. Sun, L. Geng, H.X. Peng. Magnetocaloric effect with low magnetic hysteresis loss in ferromagnetic Ni-Mn-Sb-Si alloys. Journal of Magnetism and Magnetic Materials, 2017, 428: 464-468.

H.H. Zhang, X.X. Zhang, M.F. Qian, L.S. Wei, D.W. Xing, J.F. Sun, L. Geng. Enhanced magnetocaloric effects of Ni-Fe-Mn-Sn alloys involving strong metamagnetic behavior. Journal of Alloys and Compounds, 2017, 715: 206-213.

2016

X.X. Zhang, M.F. Qian, Z. Zhang, L.S. Wei, L. Geng, J.F. Sun. Magnetostructural coupling and magnetocaloric effect in Ni-Mn-Ga-Cu microwires. Applied Physics Letter, 2016, 108: 052401.

M.F. Qian, X.X. Zhang, L.S. Wei, P.G. Martin, J.F. Sun, L. Geng, T.B. Scott, L.V. Panina, H. X. Peng. Microstructural evolution of Ni-Mn-Ga microwires during the melt-extraction process. Journal of Alloys and Compounds, 2016, 660: 244-251.

X.X. Zhang, M.F. Qian, S.P. Miao, R.Z. Su, Y.F. Liu, L. Geng, J.F. Sun. Enhanced magnetic entropy change and working temperature interval in Ni-Mn-In-Co alloys. Journal of Alloys and Compounds, 2016, 656: 154-158.

X.X. Zhang, M.F. Qian, R.Z. Su, L. Geng. Giant room-temperature inverse and conventional magnetocaloric effects in Ni-Mn-In alloys. Materials Letters, 2016, 163: 274-276.

H.H. Zhang, M.F. Qian, X.X. Zhang, L.S. Wei, F.Y. Cao, D.W. Xing, X.P. Cui, J.F. Sun, L. Geng. Martensite transformation and magnetic properties of Fe-doped Ni-Mn-Sn alloys with dual phases. Journal of Alloys and Compounds, 2016, 689: 481-488.

L.S. Wei, X.X. Zhang, M.F. Qian, X.P. Cui, L. Geng, J.F. Sun, L.V. Panina, H.X. Peng. Introducing equiaxed grains and texture into Ni-Mn-Ga alloys by hot extrusion for superplasticity. Materials and Design, 2016, 112: 339-344.

2015

M.F. Qian, X.X. Zhang, L.S. Wei, L. Geng, H.X. Peng. Effect of chemical ordering annealing on martensitic transformation and superelasticity in polycrystalline Ni-Mn-Ga microwires. Journal of Alloys and Compounds, 2015, 645: 335-343.

M.F. Qian, X.X. Zhang, L.S. Wei, L. Geng, H.X. Peng. Structural, magnetic and mechanical properties of oligocrystalline Ni-Mn-Ga shape memory microwires. Materials Today: proceedings, 2015, 2S: S577-S581.

L.S. Wei, X.X. Zhang, M.F. Qian, L. Geng. Microstructure and Texture after Deformation-induced Grain growth in Polycrystalline Ni48Mn30Ga22 Alloys. Materials Today: proceedings, 2015, 2S: S863-S866.

Y.F. Liu, X.X. Zhang, D.W. Xing, H.X. Shen, M.F. Qian, J.S. Liu, D.M. Chen, J.F. Sun. Martensite Transformation and Superelasticity in Polycrystalline Ni-Mn-Ga-Fe Microwires Prepared by Melt-Extraction Technique. Materials Science and Engineering A, 2015, 636: 157-163.

2014 and before

Y.F. Liu, X.X. Zhang, D.W. Xing, M.F. Qian, H.X. Shen, H. Wang, J.S. Liu, J.F. Sun. Shape Memory Effects of Ni_49.7Mn_25.0Ga_19.8Fe_5.5 Microwires Prepared by Rapid Solidification. Physica Status Solidi A-Applications and Materials Science, 2014, 211: 2532-2536.

M.F. Qian, X.X. Zhang, C. Witherspoon, J.F. Sun, P. Müllner. Superelasticity and shape memory effects in polycrystalline Ni-Mn-Ga microwires. Journal of Alloys and Compounds, 2013, 577S: S296-S299.

Y.H. Xia, B.P. Zhang, Y. Wang, M.F. Qian, L. Geng. In-vitro cytotoxicity and in-vivo biocompatibility of as-extruded Mg-4.0Zn-0.2Ca alloy. Materials Science and Engineering C, 2012, 32: 665-669.



Book chapter:

[1] X.X. Zhang, M.F. Qian. Shape memory alloys - Fundamentals and Applications. Chapter 1 - Ferromagnetic shape memory alloys: Foams and microwires, InTechOpen, 2017, Page 3-36.



出版物

出版物名称《Shape memory alloys--Ferromagnetic shape memory alloys: Foams and microwires》

作者Xuexi Zhang, Mingfang Qian

出版时间,完成时间2017.06

出版社IntechOpen

简单介绍介绍了铁磁功能材料多孔泡沫和纤维材料的制备、成分特性、结构、形状记忆效应和磁热等功能特性。